Lectures related to Dynamics in Living Systems: Physics of Genetic and Cellular Systems

Cellular Biology: Mitosis and Meiosis Overview

Covers cellular biology, focusing on mitosis, meiosis, and the cell cycle processes.

Protein Circuit Design: Multi Cellular Control

Explores protein circuit design for cell engineering and multicellular systems using synthetic cell-cell signaling.

Genetic Circuits and Mechanical Analogies

Explores genetic circuits, negative feedback, and mechanical analogies for spatial problems, including cell coupling and mRNA regulation.

Energy Minimization in Biological Systems: Equilibrium Models

Covers energy minimization models in biological systems, focusing on equilibrium and the roles of entropy and hydrophobicity.

DNA Damage Response

Explores experiments on DNA damage response, protein-DNA interactions, and cell cycle consequences.

Synthetic biology: molecular components and cellular engineering

Delves into synthetic biology, assembling molecular components for biological functions in living cells, including gene expression control and engineered receptor signaling.

Musical Theory and Creativity

Delves into structuring sound, exploring parameters like pitch, rhythm, and dynamics, and discussing techniques like repetition and gradual change.

Human Evolution: Genetics and Diversity

Covers the evolution of humans, the origin of modern man, genetic adaptation, and demographic history.

Dynamics: Understanding Living Systems

Explores dynamic tools for understanding living systems through computational searches and dynamical signatures in biological systems.

Protein Function Regulation: Degradation Mechanisms

Covers the mechanisms of protein degradation, including the roles of the proteasome and autophagy in regulating protein function.

Chemical Biology Toolsets: Fundamentals and Applications

Explores fundamental chemical biology tools, nucleosides, nucleotides, RNA/DNA probing, and DNA replication dynamics.

Cell Cycle Regulation: CDKs and Cyclins

Explores cell cycle regulation through CDKs and cyclins, emphasizing their cooperation and importance in driving cell cycle progression.

Genomic Medicine: Ethics and Applications

Explores genomic medicine, covering genetic determinism, personalized medicine, genetic anomalies, and ethical considerations.

Introduction to Feedback Control Systems: Concepts and Applications

Covers the principles of feedback control systems and their applications in various fields.

Biology for Engineers: Introduction to Cellular Components

Introduces fundamental biological concepts essential for materials engineering, focusing on cellular components and their applications in engineering.

Cell Cycle Regulation

Explores the regulation of the cell cycle through CDKs, Cyclins, and checkpoints.

Bistability in Cell Cycle

Explores bistability in the cell cycle, emphasizing positive feedback mechanisms and abrupt response transformations.

Cell Cycle Regulation

Covers the cell cycle, genome replication, CDK regulation, cell cycle checkpoints, fusion experiments, centriole function, and cell cycle coordination.

Information Processing: Replication, Transcription, Translation

Explores DNA replication, RNA transcription, and protein translation, emphasizing their crucial roles in cellular functions.

Decoding Mechanisms of Alzheimer's Disease Risk

Explores the mechanisms behind Alzheimer's disease risk, focusing on genetic factors and lipid metabolism disruptions.